KR960007688Y1 - Forging machine of hot nut former - Google Patents

Abstract

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Description

Improved Forging Machine for Manufacturing Stainless Steel Hot Nuts

1 is an exploded perspective view showing a preferred embodiment of the present invention

2 is an enlarged cross-sectional view of the main part of the present invention

3 is a schematic view showing the installation configuration of the present invention

4 is a temporary cross-sectional view of FIG. 2 of the present invention.

5 is a cross-sectional view of the molding die of the present invention.

6 is a molding process of the forged product according to the present invention

* Explanation of symbols for main parts of the drawings

1: Compression Punch 2: Punch Holder

3: forming die 4: punch

5: punch pin 6: sleeve

7: Air Vent 8: Molding Room

9 corner 10: air outlet

The present invention is to enable the mass production of stainless steel nuts by improving the configuration of the forging machine of the annual nut formers, and more specifically, a forging machine mounted on a general annual nut former and hot forging the nut ( Air vents are formed on the compression punch of the secondary molding jig of the forging machine and the forming die to disperse the edges of the edges, and to prevent cracking (deformation and deformation) caused by the air pockets. It prevents breakage and prevents the material from sticking to the compression punch, ensuring mass productivity of high value stainless steel nuts and greatly strengthening the durability of the compression punch.

In general, since stainless steel nuts are manufactured by hot forging, a forging load of about 50% higher than that of ordinary steel is required. As a conventional punching punch for a forging machine used for manufacturing annual nuts, the material is frequently broken and hot Due to the difference in fluidity, problems such as partial hardening and forging products (sticking materials) stick to the punches, which makes it impossible to carry out large-scale continuous work of stainless steel nuts by hot forging machines. As a result, the productivity was extremely low.

In other words, stainless steel nuts, which are widely used in ships, chemical vessels, offshore plants, power plants, etc. because of their excellent corrosion resistance, are very soft and viscous as austenitic stainless steels are heated. Air forging is created at the edge of the mold during forging to form the shape of the nut and the recess in the secondary molding jig due to stress. Due to its inherent properties, it is not possible to prevent affinity phenomenon in which the heated material (blank) adheres to the compression punch during press molding of the compression punch for nut molding. It was difficult to guarantee the mass productivity of the stainless steel nut by the hot forging former's forging machine only by discharging. Will throw.

The present invention solves this problem and improves the secondary molding jig of the forging machine to allow mass production by hot nut former of stainless steel nut. Punch and sleeve are removed and the edges of the parts are separated to form an air vent in each fitting portion of the punch holder and the sleeve, the sleeve and the punch, the punch and the punch pin. Air outlets are provided at the corners to prevent crushing (deformation and deformation) due to air pocket generation and to prevent stress from being broken by fully compressing punches, thereby improving durability and preventing sticking of materials. It is possible to greatly increase the mass productivity of high value-added stainless steel nuts by the annual nut former's forging machine. When described in detail by the accompanying drawings a configuration for achieving the above object of the invention as follows.

1 is an exploded perspective view showing a preferred embodiment of the present invention, Figure 2 is an enlarged cross-sectional view of the main portion of the coupling state of the present invention, Figure 3 is a schematic view showing the installation configuration of the present invention, high frequency heater (not shown) The material supplied from the feed roller 13 by being heated to a constant temperature at a predetermined length by cutting it with a cutter D and feeding it to the first, second, and third molding jig (A) (B) (C) sequentially. In the conventional forging machine (F) to be molded by forming, the present invention is a concentrated improvement of the secondary molding jig (B) of the forging machine (1).

The punch pin 5 is inserted into the center of the punch 4 of the compression punch 1 of the secondary molded jig B, and the sleeve 6 is coupled to the outer periphery thereof. The punch pin 5 and the punch 4 Air vents (7) are formed in each of the outer periphery of the sleeve (6) and the sleeve (6), so that the punch pin (5) and the punch (4), the punch (4) and the sleeve (6), the sleeve (6) and the punch holder ( The air bend 7 is formed in each fitting part of 2).

Each of the air vents (7) is preferably formed in plurality so that the pressure can be discharged smoothly.

In addition, an air outlet 10 is formed at each corner 9 of the molding chamber 8 of the molding die 3 corresponding thereto, and configured to discharge pressure to the molding chamber 8 of the molding die 3. The air discharge means is general.

In the drawings, reference numeral 11 denotes a fixed mold for fixing and installing the molding die 3, 12 is a fixture for fixing and installing the compression punch 1, 14 is a forged product, and 14a is a recessed groove. .

The present invention as described above is the second forged product 14, the recessed groove (14a) as shown in (c) of Figure 6 by the forming die (3) fixed to the compression punch (1) and the stationary mold (11). The molded forged product 14 is formed by carrying out the punching operation by transferring to the tertiary molded jig C so that the product is completed through a tapping process as shown in FIG.

That is, the rod-shaped material heated by the high-frequency heater and supplied from the feed roller 13 is cut in the cutter D and forged in the form of (b) of FIG. 3 in the primary molding jig (A). In order to fix the shape of the recessed groove 14a and the nut in the secondary molding jig B, it is press-fitted into the punch 4 and the punch holder 2 of the compression punch 1, and It is molded in the same form, the product forming method by the forging machine (F) of the hot nut former is a general.

The present invention is the forging of the heated blank (blank) in the primary molding jig (A), and then fed to the secondary molding jig (B) by pressing pressure, forging product (14) as a compression punch (1) Is formed into a shape of a nut, and the concave groove 14a is formed in the center portion, and the material is molded while being formed by the compression punch 1 in the forming chamber 8 of the forming die 3. The air generated in the molding chamber is compressed to each edge 9 of the molding chamber 8 and discharged through the air outlet 10 formed in the molding die 3 to prevent the formation of air pockets. (8) The stress generation of the inside is suppressed, so that no flakes of the product are eliminated, and the resistance stresses caused by the air, etc., generated by the compression punch 1 and the punch 4 are pressed. 5) is dispersed and released by the air vent 7 formed on the sleeve 6, respectively, to the compression punch (1) Greatly reduces the load will become preventable that the compression punch (1) is broken.

In order to form a ductile stainless steel material having excellent ductility and viscosity, 50% or more load is applied to ordinary carbon steel, so the stress of steam and steam generated by cooling of the heated material and the air is generated by the compression punch (1). Since the air vents 7 and the air outlets 10 formed in the corners 9 of the molding chambers 8 of the molding die 3 are dispersed and discharged, the generation of air pockets can be almost prevented. As a result, stress generation is greatly reduced, so that the life of the compression punch 1 can be stably extended, and product crushing (deformation and deformation) can be prevented. By actively preventing the sticking to), it is possible to guarantee the mass production of the desired stainless steel nut with accurate processing.

Of course, the high temperature release material (water-soluble lubricant) to suppress the occurrence of affinity in the operation process, the high temperature release material is discharged together with steam and air through each air vent (7) on the compression punch (4) This also eliminates the stresses.

As described above, the present invention is a very simple configuration, by improving and configuring the compression punch 1 and the forming die 3 of the secondary molding jig B of the forging machine of the hot nut former. This prevents the formation and dissipation of stresses, thereby improving the product's stiffness as well as improving the material's sticking to the compression punch 1 as stress relief, especially the air vent 7 on the compression punch 1. By making the mass production of nuts by the steel, it is possible to obtain a very good practical value, such as greatly increasing the mass production and reducing the manufacturing cost.

Claims (1)

(Correction) In the compression punch 1 of the secondary molding jig B of the forging machine F mounted on a normal hot nut former, Inserting the punch pin (5) in the center of the punch (4) and engaging the sleeve (6) at its outer periphery, On each outer periphery of the punch (4), punch pin (5) and sleeve (6) a number of air vents (7) are formed, respectively, characterized in that the pressure is discharged during the forging process Improved Forging Machine for Steel Hot Nut Manufacturing